Single electron resistor memory device and method for use thereof

1. A method of operating a selected memory cell comprising: storing data represented by presence or absence of one or more electrons in an island formed from conductive material in an anodically-defined pore in semiconductor material forming the selected memory cell, the island insulated from the semiconductor material; accessing the selected memory cell at a time after the act of storing data; sampling an electrical parameter manifested by the selected memory cell in response to a stimulus; and determining when one or more electrons are stored in the selected memory cell from the sample of the electrical parameter.

2. The method of claim 1 wherein the act of storing data comprises: applying a voltage pulse across first and second electrodes coupled to the semiconductor material to write data to the selected memory cell; reading data from the selected memory cell; comparing the read data from the selected memory cell to the write data sent to the selected memory cell; and iterating the acts of applying a voltage pulse, reading data and comparing the read and write data when the act of comparing the read data to the data written to the selected memory cell shows disagreement.

3. The method of claim 2 wherein the act of iterating includes: incrementing a count for each iteration; comparing the count to a maximum number of iterations for each iteration; and ceasing the act of iterating when the count equals or exceed the maximum number of iterations.

4. The method of claim 2 wherein the act of reading data from the selected memory cell comprises: applying a current bias to the selected memory cell; measuring a voltage across the selected memory cell; comparing the measured voltage to a threshold voltage; providing an indication of a first logical state when the measured voltage exceeds the threshold; and providing an indication of a second logical state when the measured voltage does not exceed the threshold.

5. The method of claim 2 wherein the act of reading data from the selected memory cell comprises: applying a voltage bias to the selected memory cell; measuring a current through the selected memory cell; comparing the measured current to a threshold current; providing an indication of a first logical state when the measured current does not exceed the threshold; and providing an indication of a second logical state when the measured current exceeds the threshold.

6. A method of reading a memory cell having one or more islands for charge storage each surrounded by an insulator, each island and surrounding insulator extending into a pore anodically formed in the semiconductor material, comprising: selecting a row and a column in a memory array to select the memory cell, the selected memory cell being located at an intersection of the selected row and column; biasing the selected memory cell; sampling an electrical parameter of the selected memory cell while the bias is applied to the memory cell; comparing the sample to a threshold to determine if an electron is stored in the island; providing an indication of a first logical state when the act of comparing determines that an electron is stored in the selected memory cell; and providing an indication of a second logical state when the act of comparing determines that no electron is stored in the selected memory cell.

7. The method of claim 6 wherein: the act of biasing comprises applying a current bias to the selected memory cell; the act of sampling comprises measuring a voltage across the selected memory cell; the act of comparing comprises comparing the measured voltage to a threshold voltage; the act of providing an indication of a first logical state comprises providing an indication of the first logical state when the measured voltage exceeds the threshold; and the act of providing an indication of a second logical state comprises providing an indication of the second logical state when the measured voltage does not exceed the threshold.

8. The method of claim 6 wherein: the act of biasing comprises applying a voltage bias to the selected memory cell; the act of sampling comprises measuring a current through the selected memory cell; the act of comparing comprises comparing the measured current to a threshold current; the act of providing an indication of a first logical state comprises providing an indication of the first logical state when the measured current does not exceed the threshold; and the act of providing an indication of a second logical state comprises providing an indication of the second logical state when the measured current exceeds the threshold.

9. A method of operating a selected memory cell comprising: storing a data entry represented by a predetermined number of electrons in one or more islands each formed from conductive material and surrounded by an insulator, each island and surrounding insulator formed in an anodically-defined pore in semiconductor material forming the selected memory cell, the predetermined number of electrons corresponding to one of a plurality of entries that may be stored in the selected memory cell; accessing the selected memory cell at a time after the act of storing a data entry; sampling an electrical parameter manifested by the selected memory cell in response to a stimulus; and determining which entry of the plurality of entries is stored in the selected memory cell from the sample of the electrical parameter.

10. The method of claim 9 wherein the act of storing a data entry comprises: applying a voltage pulse across first and second electrodes coupled to the semiconductor material to write data to the selected memory cell; reading data from the selected memory cell; comparing the read data to the write data sent to the selected memory cell; and iterating the acts of applying a voltage pulse, reading data and comparing the read and write data when the act of comparing the read data to the data written to the selected memory cell shows disagreement.

11. The method of claim 10 wherein the act of iterating includes: incrementing a count for each iteration; comparing the count to a maximum number of iterations for each iteration; and ceasing the act of iterating when the count equals or exceed the maximum number of iterations.

12. The method of claim 10 wherein the act of reading a data entry from the selected memory cell comprises: applying a current bias to the selected memory cell; measuring a voltage across the selected memory cell; comparing the measured voltage to a plurality of threshold voltages to determine which entry of the plurality of entries is stored in the selected memory cell; and providing an indication of which entry of the plurality of entries is stored in the selected memory cell.

13. The method of claim 10 wherein the act of reading a data entry from the selected memory cell comprises: applying a voltage bias to the selected memory cell; measuring a current through the selected memory cell; comparing the measured current to a plurality of threshold currents to determine which entry of the plurality of entries is stored in the selected memory cell; and providing an indication of which entry of the plurality of entries is stored in the selected memory cell.

14. A method of reading a memory cell having one or more islands for charge storage, each island surrounded by an insulator, each island and surrounding insulator extending into a pore anodically formed in semiconductor material forming the memory cell, comprising: selecting a row and a column in a memory array to select the memory cell, the selected memory cell being located at an intersection of the selected row and column; biasing the selected memory cell; sampling an electrical parameter of the selected memory cell while the bias is applied to the memory cell; comparing the sample to a plurality of thresholds to determine which entry of a plurality of entries is stored in the selected memory cell; and providing an indication of which entry of the plurality of entries is stored in the selected memory cell.

15. The method of claim 14 wherein: the act of biasing comprises applying a current bias to the selected memory cell; the act of sampling comprises measuring a voltage across the selected memory cell; and the act of comparing comprises comparing the measured voltage to a plurality of threshold voltages to determine which entry of the plurality of entries is stored in the selected memory cell.

16. The method of claim 14 wherein: the act of biasing comprises applying a voltage bias to the selected memory cell; the act of sampling comprises measuring a current through the selected memory cell; and the act of comparing comprises comparing the measured current to a plurality of threshold currents to determine which entry of the plurality of entries is stored in the selected memory cell.